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kernel / include / asm-mips / mipsregs.h
at v2.6.23-rc2 1523 lines 44 kB view raw
1/* 2 * This file is subject to the terms and conditions of the GNU General Public 3 * License. See the file "COPYING" in the main directory of this archive 4 * for more details. 5 * 6 * Copyright (C) 1994, 1995, 1996, 1997, 2000, 2001 by Ralf Baechle 7 * Copyright (C) 2000 Silicon Graphics, Inc. 8 * Modified for further R[236]000 support by Paul M. Antoine, 1996. 9 * Kevin D. Kissell, kevink@mips.com and Carsten Langgaard, carstenl@mips.com 10 * Copyright (C) 2000, 07 MIPS Technologies, Inc. 11 * Copyright (C) 2003, 2004 Maciej W. Rozycki 12 */ 13#ifndef _ASM_MIPSREGS_H 14#define _ASM_MIPSREGS_H 15 16#include <linux/linkage.h> 17#include <asm/hazards.h> 18#include <asm/war.h> 19 20/* 21 * The following macros are especially useful for __asm__ 22 * inline assembler. 23 */ 24#ifndef __STR 25#define __STR(x) #x 26#endif 27#ifndef STR 28#define STR(x) __STR(x) 29#endif 30 31/* 32 * Configure language 33 */ 34#ifdef __ASSEMBLY__ 35#define _ULCAST_ 36#else 37#define _ULCAST_ (unsigned long) 38#endif 39 40/* 41 * Coprocessor 0 register names 42 */ 43#define CP0_INDEX $0 44#define CP0_RANDOM $1 45#define CP0_ENTRYLO0 $2 46#define CP0_ENTRYLO1 $3 47#define CP0_CONF $3 48#define CP0_CONTEXT $4 49#define CP0_PAGEMASK $5 50#define CP0_WIRED $6 51#define CP0_INFO $7 52#define CP0_BADVADDR $8 53#define CP0_COUNT $9 54#define CP0_ENTRYHI $10 55#define CP0_COMPARE $11 56#define CP0_STATUS $12 57#define CP0_CAUSE $13 58#define CP0_EPC $14 59#define CP0_PRID $15 60#define CP0_CONFIG $16 61#define CP0_LLADDR $17 62#define CP0_WATCHLO $18 63#define CP0_WATCHHI $19 64#define CP0_XCONTEXT $20 65#define CP0_FRAMEMASK $21 66#define CP0_DIAGNOSTIC $22 67#define CP0_DEBUG $23 68#define CP0_DEPC $24 69#define CP0_PERFORMANCE $25 70#define CP0_ECC $26 71#define CP0_CACHEERR $27 72#define CP0_TAGLO $28 73#define CP0_TAGHI $29 74#define CP0_ERROREPC $30 75#define CP0_DESAVE $31 76 77/* 78 * R4640/R4650 cp0 register names. These registers are listed 79 * here only for completeness; without MMU these CPUs are not useable 80 * by Linux. A future ELKS port might take make Linux run on them 81 * though ... 82 */ 83#define CP0_IBASE $0 84#define CP0_IBOUND $1 85#define CP0_DBASE $2 86#define CP0_DBOUND $3 87#define CP0_CALG $17 88#define CP0_IWATCH $18 89#define CP0_DWATCH $19 90 91/* 92 * Coprocessor 0 Set 1 register names 93 */ 94#define CP0_S1_DERRADDR0 $26 95#define CP0_S1_DERRADDR1 $27 96#define CP0_S1_INTCONTROL $20 97 98/* 99 * Coprocessor 0 Set 2 register names 100 */ 101#define CP0_S2_SRSCTL $12 /* MIPSR2 */ 102 103/* 104 * Coprocessor 0 Set 3 register names 105 */ 106#define CP0_S3_SRSMAP $12 /* MIPSR2 */ 107 108/* 109 * TX39 Series 110 */ 111#define CP0_TX39_CACHE $7 112 113/* 114 * Coprocessor 1 (FPU) register names 115 */ 116#define CP1_REVISION $0 117#define CP1_STATUS $31 118 119/* 120 * FPU Status Register Values 121 */ 122/* 123 * Status Register Values 124 */ 125 126#define FPU_CSR_FLUSH 0x01000000 /* flush denormalised results to 0 */ 127#define FPU_CSR_COND 0x00800000 /* $fcc0 */ 128#define FPU_CSR_COND0 0x00800000 /* $fcc0 */ 129#define FPU_CSR_COND1 0x02000000 /* $fcc1 */ 130#define FPU_CSR_COND2 0x04000000 /* $fcc2 */ 131#define FPU_CSR_COND3 0x08000000 /* $fcc3 */ 132#define FPU_CSR_COND4 0x10000000 /* $fcc4 */ 133#define FPU_CSR_COND5 0x20000000 /* $fcc5 */ 134#define FPU_CSR_COND6 0x40000000 /* $fcc6 */ 135#define FPU_CSR_COND7 0x80000000 /* $fcc7 */ 136 137/* 138 * X the exception cause indicator 139 * E the exception enable 140 * S the sticky/flag bit 141*/ 142#define FPU_CSR_ALL_X 0x0003f000 143#define FPU_CSR_UNI_X 0x00020000 144#define FPU_CSR_INV_X 0x00010000 145#define FPU_CSR_DIV_X 0x00008000 146#define FPU_CSR_OVF_X 0x00004000 147#define FPU_CSR_UDF_X 0x00002000 148#define FPU_CSR_INE_X 0x00001000 149 150#define FPU_CSR_ALL_E 0x00000f80 151#define FPU_CSR_INV_E 0x00000800 152#define FPU_CSR_DIV_E 0x00000400 153#define FPU_CSR_OVF_E 0x00000200 154#define FPU_CSR_UDF_E 0x00000100 155#define FPU_CSR_INE_E 0x00000080 156 157#define FPU_CSR_ALL_S 0x0000007c 158#define FPU_CSR_INV_S 0x00000040 159#define FPU_CSR_DIV_S 0x00000020 160#define FPU_CSR_OVF_S 0x00000010 161#define FPU_CSR_UDF_S 0x00000008 162#define FPU_CSR_INE_S 0x00000004 163 164/* rounding mode */ 165#define FPU_CSR_RN 0x0 /* nearest */ 166#define FPU_CSR_RZ 0x1 /* towards zero */ 167#define FPU_CSR_RU 0x2 /* towards +Infinity */ 168#define FPU_CSR_RD 0x3 /* towards -Infinity */ 169 170 171/* 172 * Values for PageMask register 173 */ 174#ifdef CONFIG_CPU_VR41XX 175 176/* Why doesn't stupidity hurt ... */ 177 178#define PM_1K 0x00000000 179#define PM_4K 0x00001800 180#define PM_16K 0x00007800 181#define PM_64K 0x0001f800 182#define PM_256K 0x0007f800 183 184#else 185 186#define PM_4K 0x00000000 187#define PM_16K 0x00006000 188#define PM_64K 0x0001e000 189#define PM_256K 0x0007e000 190#define PM_1M 0x001fe000 191#define PM_4M 0x007fe000 192#define PM_16M 0x01ffe000 193#define PM_64M 0x07ffe000 194#define PM_256M 0x1fffe000 195 196#endif 197 198/* 199 * Default page size for a given kernel configuration 200 */ 201#ifdef CONFIG_PAGE_SIZE_4KB 202#define PM_DEFAULT_MASK PM_4K 203#elif defined(CONFIG_PAGE_SIZE_16KB) 204#define PM_DEFAULT_MASK PM_16K 205#elif defined(CONFIG_PAGE_SIZE_64KB) 206#define PM_DEFAULT_MASK PM_64K 207#else 208#error Bad page size configuration! 209#endif 210 211 212/* 213 * Values used for computation of new tlb entries 214 */ 215#define PL_4K 12 216#define PL_16K 14 217#define PL_64K 16 218#define PL_256K 18 219#define PL_1M 20 220#define PL_4M 22 221#define PL_16M 24 222#define PL_64M 26 223#define PL_256M 28 224 225/* 226 * R4x00 interrupt enable / cause bits 227 */ 228#define IE_SW0 (_ULCAST_(1) << 8) 229#define IE_SW1 (_ULCAST_(1) << 9) 230#define IE_IRQ0 (_ULCAST_(1) << 10) 231#define IE_IRQ1 (_ULCAST_(1) << 11) 232#define IE_IRQ2 (_ULCAST_(1) << 12) 233#define IE_IRQ3 (_ULCAST_(1) << 13) 234#define IE_IRQ4 (_ULCAST_(1) << 14) 235#define IE_IRQ5 (_ULCAST_(1) << 15) 236 237/* 238 * R4x00 interrupt cause bits 239 */ 240#define C_SW0 (_ULCAST_(1) << 8) 241#define C_SW1 (_ULCAST_(1) << 9) 242#define C_IRQ0 (_ULCAST_(1) << 10) 243#define C_IRQ1 (_ULCAST_(1) << 11) 244#define C_IRQ2 (_ULCAST_(1) << 12) 245#define C_IRQ3 (_ULCAST_(1) << 13) 246#define C_IRQ4 (_ULCAST_(1) << 14) 247#define C_IRQ5 (_ULCAST_(1) << 15) 248 249/* 250 * Bitfields in the R4xx0 cp0 status register 251 */ 252#define ST0_IE 0x00000001 253#define ST0_EXL 0x00000002 254#define ST0_ERL 0x00000004 255#define ST0_KSU 0x00000018 256# define KSU_USER 0x00000010 257# define KSU_SUPERVISOR 0x00000008 258# define KSU_KERNEL 0x00000000 259#define ST0_UX 0x00000020 260#define ST0_SX 0x00000040 261#define ST0_KX 0x00000080 262#define ST0_DE 0x00010000 263#define ST0_CE 0x00020000 264 265/* 266 * Setting c0_status.co enables Hit_Writeback and Hit_Writeback_Invalidate 267 * cacheops in userspace. This bit exists only on RM7000 and RM9000 268 * processors. 269 */ 270#define ST0_CO 0x08000000 271 272/* 273 * Bitfields in the R[23]000 cp0 status register. 274 */ 275#define ST0_IEC 0x00000001 276#define ST0_KUC 0x00000002 277#define ST0_IEP 0x00000004 278#define ST0_KUP 0x00000008 279#define ST0_IEO 0x00000010 280#define ST0_KUO 0x00000020 281/* bits 6 & 7 are reserved on R[23]000 */ 282#define ST0_ISC 0x00010000 283#define ST0_SWC 0x00020000 284#define ST0_CM 0x00080000 285 286/* 287 * Bits specific to the R4640/R4650 288 */ 289#define ST0_UM (_ULCAST_(1) << 4) 290#define ST0_IL (_ULCAST_(1) << 23) 291#define ST0_DL (_ULCAST_(1) << 24) 292 293/* 294 * Enable the MIPS MDMX and DSP ASEs 295 */ 296#define ST0_MX 0x01000000 297 298/* 299 * Bitfields in the TX39 family CP0 Configuration Register 3 300 */ 301#define TX39_CONF_ICS_SHIFT 19 302#define TX39_CONF_ICS_MASK 0x00380000 303#define TX39_CONF_ICS_1KB 0x00000000 304#define TX39_CONF_ICS_2KB 0x00080000 305#define TX39_CONF_ICS_4KB 0x00100000 306#define TX39_CONF_ICS_8KB 0x00180000 307#define TX39_CONF_ICS_16KB 0x00200000 308 309#define TX39_CONF_DCS_SHIFT 16 310#define TX39_CONF_DCS_MASK 0x00070000 311#define TX39_CONF_DCS_1KB 0x00000000 312#define TX39_CONF_DCS_2KB 0x00010000 313#define TX39_CONF_DCS_4KB 0x00020000 314#define TX39_CONF_DCS_8KB 0x00030000 315#define TX39_CONF_DCS_16KB 0x00040000 316 317#define TX39_CONF_CWFON 0x00004000 318#define TX39_CONF_WBON 0x00002000 319#define TX39_CONF_RF_SHIFT 10 320#define TX39_CONF_RF_MASK 0x00000c00 321#define TX39_CONF_DOZE 0x00000200 322#define TX39_CONF_HALT 0x00000100 323#define TX39_CONF_LOCK 0x00000080 324#define TX39_CONF_ICE 0x00000020 325#define TX39_CONF_DCE 0x00000010 326#define TX39_CONF_IRSIZE_SHIFT 2 327#define TX39_CONF_IRSIZE_MASK 0x0000000c 328#define TX39_CONF_DRSIZE_SHIFT 0 329#define TX39_CONF_DRSIZE_MASK 0x00000003 330 331/* 332 * Status register bits available in all MIPS CPUs. 333 */ 334#define ST0_IM 0x0000ff00 335#define STATUSB_IP0 8 336#define STATUSF_IP0 (_ULCAST_(1) << 8) 337#define STATUSB_IP1 9 338#define STATUSF_IP1 (_ULCAST_(1) << 9) 339#define STATUSB_IP2 10 340#define STATUSF_IP2 (_ULCAST_(1) << 10) 341#define STATUSB_IP3 11 342#define STATUSF_IP3 (_ULCAST_(1) << 11) 343#define STATUSB_IP4 12 344#define STATUSF_IP4 (_ULCAST_(1) << 12) 345#define STATUSB_IP5 13 346#define STATUSF_IP5 (_ULCAST_(1) << 13) 347#define STATUSB_IP6 14 348#define STATUSF_IP6 (_ULCAST_(1) << 14) 349#define STATUSB_IP7 15 350#define STATUSF_IP7 (_ULCAST_(1) << 15) 351#define STATUSB_IP8 0 352#define STATUSF_IP8 (_ULCAST_(1) << 0) 353#define STATUSB_IP9 1 354#define STATUSF_IP9 (_ULCAST_(1) << 1) 355#define STATUSB_IP10 2 356#define STATUSF_IP10 (_ULCAST_(1) << 2) 357#define STATUSB_IP11 3 358#define STATUSF_IP11 (_ULCAST_(1) << 3) 359#define STATUSB_IP12 4 360#define STATUSF_IP12 (_ULCAST_(1) << 4) 361#define STATUSB_IP13 5 362#define STATUSF_IP13 (_ULCAST_(1) << 5) 363#define STATUSB_IP14 6 364#define STATUSF_IP14 (_ULCAST_(1) << 6) 365#define STATUSB_IP15 7 366#define STATUSF_IP15 (_ULCAST_(1) << 7) 367#define ST0_CH 0x00040000 368#define ST0_SR 0x00100000 369#define ST0_TS 0x00200000 370#define ST0_BEV 0x00400000 371#define ST0_RE 0x02000000 372#define ST0_FR 0x04000000 373#define ST0_CU 0xf0000000 374#define ST0_CU0 0x10000000 375#define ST0_CU1 0x20000000 376#define ST0_CU2 0x40000000 377#define ST0_CU3 0x80000000 378#define ST0_XX 0x80000000 /* MIPS IV naming */ 379 380/* 381 * Bitfields and bit numbers in the coprocessor 0 cause register. 382 * 383 * Refer to your MIPS R4xx0 manual, chapter 5 for explanation. 384 */ 385#define CAUSEB_EXCCODE 2 386#define CAUSEF_EXCCODE (_ULCAST_(31) << 2) 387#define CAUSEB_IP 8 388#define CAUSEF_IP (_ULCAST_(255) << 8) 389#define CAUSEB_IP0 8 390#define CAUSEF_IP0 (_ULCAST_(1) << 8) 391#define CAUSEB_IP1 9 392#define CAUSEF_IP1 (_ULCAST_(1) << 9) 393#define CAUSEB_IP2 10 394#define CAUSEF_IP2 (_ULCAST_(1) << 10) 395#define CAUSEB_IP3 11 396#define CAUSEF_IP3 (_ULCAST_(1) << 11) 397#define CAUSEB_IP4 12 398#define CAUSEF_IP4 (_ULCAST_(1) << 12) 399#define CAUSEB_IP5 13 400#define CAUSEF_IP5 (_ULCAST_(1) << 13) 401#define CAUSEB_IP6 14 402#define CAUSEF_IP6 (_ULCAST_(1) << 14) 403#define CAUSEB_IP7 15 404#define CAUSEF_IP7 (_ULCAST_(1) << 15) 405#define CAUSEB_IV 23 406#define CAUSEF_IV (_ULCAST_(1) << 23) 407#define CAUSEB_CE 28 408#define CAUSEF_CE (_ULCAST_(3) << 28) 409#define CAUSEB_BD 31 410#define CAUSEF_BD (_ULCAST_(1) << 31) 411 412/* 413 * Bits in the coprocessor 0 config register. 414 */ 415/* Generic bits. */ 416#define CONF_CM_CACHABLE_NO_WA 0 417#define CONF_CM_CACHABLE_WA 1 418#define CONF_CM_UNCACHED 2 419#define CONF_CM_CACHABLE_NONCOHERENT 3 420#define CONF_CM_CACHABLE_CE 4 421#define CONF_CM_CACHABLE_COW 5 422#define CONF_CM_CACHABLE_CUW 6 423#define CONF_CM_CACHABLE_ACCELERATED 7 424#define CONF_CM_CMASK 7 425#define CONF_BE (_ULCAST_(1) << 15) 426 427/* Bits common to various processors. */ 428#define CONF_CU (_ULCAST_(1) << 3) 429#define CONF_DB (_ULCAST_(1) << 4) 430#define CONF_IB (_ULCAST_(1) << 5) 431#define CONF_DC (_ULCAST_(7) << 6) 432#define CONF_IC (_ULCAST_(7) << 9) 433#define CONF_EB (_ULCAST_(1) << 13) 434#define CONF_EM (_ULCAST_(1) << 14) 435#define CONF_SM (_ULCAST_(1) << 16) 436#define CONF_SC (_ULCAST_(1) << 17) 437#define CONF_EW (_ULCAST_(3) << 18) 438#define CONF_EP (_ULCAST_(15)<< 24) 439#define CONF_EC (_ULCAST_(7) << 28) 440#define CONF_CM (_ULCAST_(1) << 31) 441 442/* Bits specific to the R4xx0. */ 443#define R4K_CONF_SW (_ULCAST_(1) << 20) 444#define R4K_CONF_SS (_ULCAST_(1) << 21) 445#define R4K_CONF_SB (_ULCAST_(3) << 22) 446 447/* Bits specific to the R5000. */ 448#define R5K_CONF_SE (_ULCAST_(1) << 12) 449#define R5K_CONF_SS (_ULCAST_(3) << 20) 450 451/* Bits specific to the RM7000. */ 452#define RM7K_CONF_SE (_ULCAST_(1) << 3) 453#define RM7K_CONF_TE (_ULCAST_(1) << 12) 454#define RM7K_CONF_CLK (_ULCAST_(1) << 16) 455#define RM7K_CONF_TC (_ULCAST_(1) << 17) 456#define RM7K_CONF_SI (_ULCAST_(3) << 20) 457#define RM7K_CONF_SC (_ULCAST_(1) << 31) 458 459/* Bits specific to the R10000. */ 460#define R10K_CONF_DN (_ULCAST_(3) << 3) 461#define R10K_CONF_CT (_ULCAST_(1) << 5) 462#define R10K_CONF_PE (_ULCAST_(1) << 6) 463#define R10K_CONF_PM (_ULCAST_(3) << 7) 464#define R10K_CONF_EC (_ULCAST_(15)<< 9) 465#define R10K_CONF_SB (_ULCAST_(1) << 13) 466#define R10K_CONF_SK (_ULCAST_(1) << 14) 467#define R10K_CONF_SS (_ULCAST_(7) << 16) 468#define R10K_CONF_SC (_ULCAST_(7) << 19) 469#define R10K_CONF_DC (_ULCAST_(7) << 26) 470#define R10K_CONF_IC (_ULCAST_(7) << 29) 471 472/* Bits specific to the VR41xx. */ 473#define VR41_CONF_CS (_ULCAST_(1) << 12) 474#define VR41_CONF_P4K (_ULCAST_(1) << 13) 475#define VR41_CONF_BP (_ULCAST_(1) << 16) 476#define VR41_CONF_M16 (_ULCAST_(1) << 20) 477#define VR41_CONF_AD (_ULCAST_(1) << 23) 478 479/* Bits specific to the R30xx. */ 480#define R30XX_CONF_FDM (_ULCAST_(1) << 19) 481#define R30XX_CONF_REV (_ULCAST_(1) << 22) 482#define R30XX_CONF_AC (_ULCAST_(1) << 23) 483#define R30XX_CONF_RF (_ULCAST_(1) << 24) 484#define R30XX_CONF_HALT (_ULCAST_(1) << 25) 485#define R30XX_CONF_FPINT (_ULCAST_(7) << 26) 486#define R30XX_CONF_DBR (_ULCAST_(1) << 29) 487#define R30XX_CONF_SB (_ULCAST_(1) << 30) 488#define R30XX_CONF_LOCK (_ULCAST_(1) << 31) 489 490/* Bits specific to the TX49. */ 491#define TX49_CONF_DC (_ULCAST_(1) << 16) 492#define TX49_CONF_IC (_ULCAST_(1) << 17) /* conflict with CONF_SC */ 493#define TX49_CONF_HALT (_ULCAST_(1) << 18) 494#define TX49_CONF_CWFON (_ULCAST_(1) << 27) 495 496/* Bits specific to the MIPS32/64 PRA. */ 497#define MIPS_CONF_MT (_ULCAST_(7) << 7) 498#define MIPS_CONF_AR (_ULCAST_(7) << 10) 499#define MIPS_CONF_AT (_ULCAST_(3) << 13) 500#define MIPS_CONF_M (_ULCAST_(1) << 31) 501 502/* 503 * Bits in the MIPS32/64 PRA coprocessor 0 config registers 1 and above. 504 */ 505#define MIPS_CONF1_FP (_ULCAST_(1) << 0) 506#define MIPS_CONF1_EP (_ULCAST_(1) << 1) 507#define MIPS_CONF1_CA (_ULCAST_(1) << 2) 508#define MIPS_CONF1_WR (_ULCAST_(1) << 3) 509#define MIPS_CONF1_PC (_ULCAST_(1) << 4) 510#define MIPS_CONF1_MD (_ULCAST_(1) << 5) 511#define MIPS_CONF1_C2 (_ULCAST_(1) << 6) 512#define MIPS_CONF1_DA (_ULCAST_(7) << 7) 513#define MIPS_CONF1_DL (_ULCAST_(7) << 10) 514#define MIPS_CONF1_DS (_ULCAST_(7) << 13) 515#define MIPS_CONF1_IA (_ULCAST_(7) << 16) 516#define MIPS_CONF1_IL (_ULCAST_(7) << 19) 517#define MIPS_CONF1_IS (_ULCAST_(7) << 22) 518#define MIPS_CONF1_TLBS (_ULCAST_(63)<< 25) 519 520#define MIPS_CONF2_SA (_ULCAST_(15)<< 0) 521#define MIPS_CONF2_SL (_ULCAST_(15)<< 4) 522#define MIPS_CONF2_SS (_ULCAST_(15)<< 8) 523#define MIPS_CONF2_SU (_ULCAST_(15)<< 12) 524#define MIPS_CONF2_TA (_ULCAST_(15)<< 16) 525#define MIPS_CONF2_TL (_ULCAST_(15)<< 20) 526#define MIPS_CONF2_TS (_ULCAST_(15)<< 24) 527#define MIPS_CONF2_TU (_ULCAST_(7) << 28) 528 529#define MIPS_CONF3_TL (_ULCAST_(1) << 0) 530#define MIPS_CONF3_SM (_ULCAST_(1) << 1) 531#define MIPS_CONF3_MT (_ULCAST_(1) << 2) 532#define MIPS_CONF3_SP (_ULCAST_(1) << 4) 533#define MIPS_CONF3_VINT (_ULCAST_(1) << 5) 534#define MIPS_CONF3_VEIC (_ULCAST_(1) << 6) 535#define MIPS_CONF3_LPA (_ULCAST_(1) << 7) 536#define MIPS_CONF3_DSP (_ULCAST_(1) << 10) 537#define MIPS_CONF3_ULRI (_ULCAST_(1) << 13) 538 539#define MIPS_CONF7_WII (_ULCAST_(1) << 31) 540 541#define MIPS_CONF7_RPS (_ULCAST_(1) << 2) 542 543 544/* 545 * Bits in the MIPS32/64 coprocessor 1 (FPU) revision register. 546 */ 547#define MIPS_FPIR_S (_ULCAST_(1) << 16) 548#define MIPS_FPIR_D (_ULCAST_(1) << 17) 549#define MIPS_FPIR_PS (_ULCAST_(1) << 18) 550#define MIPS_FPIR_3D (_ULCAST_(1) << 19) 551#define MIPS_FPIR_W (_ULCAST_(1) << 20) 552#define MIPS_FPIR_L (_ULCAST_(1) << 21) 553#define MIPS_FPIR_F64 (_ULCAST_(1) << 22) 554 555#ifndef __ASSEMBLY__ 556 557/* 558 * Functions to access the R10000 performance counters. These are basically 559 * mfc0 and mtc0 instructions from and to coprocessor register with a 5-bit 560 * performance counter number encoded into bits 1 ... 5 of the instruction. 561 * Only performance counters 0 to 1 actually exist, so for a non-R10000 aware 562 * disassembler these will look like an access to sel 0 or 1. 563 */ 564#define read_r10k_perf_cntr(counter) \ 565({ \ 566 unsigned int __res; \ 567 __asm__ __volatile__( \ 568 "mfpc\t%0, %1" \ 569 : "=r" (__res) \ 570 : "i" (counter)); \ 571 \ 572 __res; \ 573}) 574 575#define write_r10k_perf_cntr(counter,val) \ 576do { \ 577 __asm__ __volatile__( \ 578 "mtpc\t%0, %1" \ 579 : \ 580 : "r" (val), "i" (counter)); \ 581} while (0) 582 583#define read_r10k_perf_event(counter) \ 584({ \ 585 unsigned int __res; \ 586 __asm__ __volatile__( \ 587 "mfps\t%0, %1" \ 588 : "=r" (__res) \ 589 : "i" (counter)); \ 590 \ 591 __res; \ 592}) 593 594#define write_r10k_perf_cntl(counter,val) \ 595do { \ 596 __asm__ __volatile__( \ 597 "mtps\t%0, %1" \ 598 : \ 599 : "r" (val), "i" (counter)); \ 600} while (0) 601 602 603/* 604 * Macros to access the system control coprocessor 605 */ 606 607#define __read_32bit_c0_register(source, sel) \ 608({ int __res; \ 609 if (sel == 0) \ 610 __asm__ __volatile__( \ 611 "mfc0\t%0, " #source "\n\t" \ 612 : "=r" (__res)); \ 613 else \ 614 __asm__ __volatile__( \ 615 ".set\tmips32\n\t" \ 616 "mfc0\t%0, " #source ", " #sel "\n\t" \ 617 ".set\tmips0\n\t" \ 618 : "=r" (__res)); \ 619 __res; \ 620}) 621 622#define __read_64bit_c0_register(source, sel) \ 623({ unsigned long long __res; \ 624 if (sizeof(unsigned long) == 4) \ 625 __res = __read_64bit_c0_split(source, sel); \ 626 else if (sel == 0) \ 627 __asm__ __volatile__( \ 628 ".set\tmips3\n\t" \ 629 "dmfc0\t%0, " #source "\n\t" \ 630 ".set\tmips0" \ 631 : "=r" (__res)); \ 632 else \ 633 __asm__ __volatile__( \ 634 ".set\tmips64\n\t" \ 635 "dmfc0\t%0, " #source ", " #sel "\n\t" \ 636 ".set\tmips0" \ 637 : "=r" (__res)); \ 638 __res; \ 639}) 640 641#define __write_32bit_c0_register(register, sel, value) \ 642do { \ 643 if (sel == 0) \ 644 __asm__ __volatile__( \ 645 "mtc0\t%z0, " #register "\n\t" \ 646 : : "Jr" ((unsigned int)(value))); \ 647 else \ 648 __asm__ __volatile__( \ 649 ".set\tmips32\n\t" \ 650 "mtc0\t%z0, " #register ", " #sel "\n\t" \ 651 ".set\tmips0" \ 652 : : "Jr" ((unsigned int)(value))); \ 653} while (0) 654 655#define __write_64bit_c0_register(register, sel, value) \ 656do { \ 657 if (sizeof(unsigned long) == 4) \ 658 __write_64bit_c0_split(register, sel, value); \ 659 else if (sel == 0) \ 660 __asm__ __volatile__( \ 661 ".set\tmips3\n\t" \ 662 "dmtc0\t%z0, " #register "\n\t" \ 663 ".set\tmips0" \ 664 : : "Jr" (value)); \ 665 else \ 666 __asm__ __volatile__( \ 667 ".set\tmips64\n\t" \ 668 "dmtc0\t%z0, " #register ", " #sel "\n\t" \ 669 ".set\tmips0" \ 670 : : "Jr" (value)); \ 671} while (0) 672 673#define __read_ulong_c0_register(reg, sel) \ 674 ((sizeof(unsigned long) == 4) ? \ 675 (unsigned long) __read_32bit_c0_register(reg, sel) : \ 676 (unsigned long) __read_64bit_c0_register(reg, sel)) 677 678#define __write_ulong_c0_register(reg, sel, val) \ 679do { \ 680 if (sizeof(unsigned long) == 4) \ 681 __write_32bit_c0_register(reg, sel, val); \ 682 else \ 683 __write_64bit_c0_register(reg, sel, val); \ 684} while (0) 685 686/* 687 * On RM7000/RM9000 these are uses to access cop0 set 1 registers 688 */ 689#define __read_32bit_c0_ctrl_register(source) \ 690({ int __res; \ 691 __asm__ __volatile__( \ 692 "cfc0\t%0, " #source "\n\t" \ 693 : "=r" (__res)); \ 694 __res; \ 695}) 696 697#define __write_32bit_c0_ctrl_register(register, value) \ 698do { \ 699 __asm__ __volatile__( \ 700 "ctc0\t%z0, " #register "\n\t" \ 701 : : "Jr" ((unsigned int)(value))); \ 702} while (0) 703 704/* 705 * These versions are only needed for systems with more than 38 bits of 706 * physical address space running the 32-bit kernel. That's none atm :-) 707 */ 708#define __read_64bit_c0_split(source, sel) \ 709({ \ 710 unsigned long long __val; \ 711 unsigned long __flags; \ 712 \ 713 local_irq_save(__flags); \ 714 if (sel == 0) \ 715 __asm__ __volatile__( \ 716 ".set\tmips64\n\t" \ 717 "dmfc0\t%M0, " #source "\n\t" \ 718 "dsll\t%L0, %M0, 32\n\t" \ 719 "dsrl\t%M0, %M0, 32\n\t" \ 720 "dsrl\t%L0, %L0, 32\n\t" \ 721 ".set\tmips0" \ 722 : "=r" (__val)); \ 723 else \ 724 __asm__ __volatile__( \ 725 ".set\tmips64\n\t" \ 726 "dmfc0\t%M0, " #source ", " #sel "\n\t" \ 727 "dsll\t%L0, %M0, 32\n\t" \ 728 "dsrl\t%M0, %M0, 32\n\t" \ 729 "dsrl\t%L0, %L0, 32\n\t" \ 730 ".set\tmips0" \ 731 : "=r" (__val)); \ 732 local_irq_restore(__flags); \ 733 \ 734 __val; \ 735}) 736 737#define __write_64bit_c0_split(source, sel, val) \ 738do { \ 739 unsigned long __flags; \ 740 \ 741 local_irq_save(__flags); \ 742 if (sel == 0) \ 743 __asm__ __volatile__( \ 744 ".set\tmips64\n\t" \ 745 "dsll\t%L0, %L0, 32\n\t" \ 746 "dsrl\t%L0, %L0, 32\n\t" \ 747 "dsll\t%M0, %M0, 32\n\t" \ 748 "or\t%L0, %L0, %M0\n\t" \ 749 "dmtc0\t%L0, " #source "\n\t" \ 750 ".set\tmips0" \ 751 : : "r" (val)); \ 752 else \ 753 __asm__ __volatile__( \ 754 ".set\tmips64\n\t" \ 755 "dsll\t%L0, %L0, 32\n\t" \ 756 "dsrl\t%L0, %L0, 32\n\t" \ 757 "dsll\t%M0, %M0, 32\n\t" \ 758 "or\t%L0, %L0, %M0\n\t" \ 759 "dmtc0\t%L0, " #source ", " #sel "\n\t" \ 760 ".set\tmips0" \ 761 : : "r" (val)); \ 762 local_irq_restore(__flags); \ 763} while (0) 764 765#define read_c0_index() __read_32bit_c0_register($0, 0) 766#define write_c0_index(val) __write_32bit_c0_register($0, 0, val) 767 768#define read_c0_entrylo0() __read_ulong_c0_register($2, 0) 769#define write_c0_entrylo0(val) __write_ulong_c0_register($2, 0, val) 770 771#define read_c0_entrylo1() __read_ulong_c0_register($3, 0) 772#define write_c0_entrylo1(val) __write_ulong_c0_register($3, 0, val) 773 774#define read_c0_conf() __read_32bit_c0_register($3, 0) 775#define write_c0_conf(val) __write_32bit_c0_register($3, 0, val) 776 777#define read_c0_context() __read_ulong_c0_register($4, 0) 778#define write_c0_context(val) __write_ulong_c0_register($4, 0, val) 779 780#define read_c0_userlocal() __read_ulong_c0_register($4, 2) 781#define write_c0_userlocal(val) __write_ulong_c0_register($4, 2, val) 782 783#define read_c0_pagemask() __read_32bit_c0_register($5, 0) 784#define write_c0_pagemask(val) __write_32bit_c0_register($5, 0, val) 785 786#define read_c0_wired() __read_32bit_c0_register($6, 0) 787#define write_c0_wired(val) __write_32bit_c0_register($6, 0, val) 788 789#define read_c0_info() __read_32bit_c0_register($7, 0) 790 791#define read_c0_cache() __read_32bit_c0_register($7, 0) /* TX39xx */ 792#define write_c0_cache(val) __write_32bit_c0_register($7, 0, val) 793 794#define read_c0_badvaddr() __read_ulong_c0_register($8, 0) 795#define write_c0_badvaddr(val) __write_ulong_c0_register($8, 0, val) 796 797#define read_c0_count() __read_32bit_c0_register($9, 0) 798#define write_c0_count(val) __write_32bit_c0_register($9, 0, val) 799 800#define read_c0_count2() __read_32bit_c0_register($9, 6) /* pnx8550 */ 801#define write_c0_count2(val) __write_32bit_c0_register($9, 6, val) 802 803#define read_c0_count3() __read_32bit_c0_register($9, 7) /* pnx8550 */ 804#define write_c0_count3(val) __write_32bit_c0_register($9, 7, val) 805 806#define read_c0_entryhi() __read_ulong_c0_register($10, 0) 807#define write_c0_entryhi(val) __write_ulong_c0_register($10, 0, val) 808 809#define read_c0_compare() __read_32bit_c0_register($11, 0) 810#define write_c0_compare(val) __write_32bit_c0_register($11, 0, val) 811 812#define read_c0_compare2() __read_32bit_c0_register($11, 6) /* pnx8550 */ 813#define write_c0_compare2(val) __write_32bit_c0_register($11, 6, val) 814 815#define read_c0_compare3() __read_32bit_c0_register($11, 7) /* pnx8550 */ 816#define write_c0_compare3(val) __write_32bit_c0_register($11, 7, val) 817 818#define read_c0_status() __read_32bit_c0_register($12, 0) 819#ifdef CONFIG_MIPS_MT_SMTC 820#define write_c0_status(val) \ 821do { \ 822 __write_32bit_c0_register($12, 0, val); \ 823 __ehb(); \ 824} while (0) 825#else 826/* 827 * Legacy non-SMTC code, which may be hazardous 828 * but which might not support EHB 829 */ 830#define write_c0_status(val) __write_32bit_c0_register($12, 0, val) 831#endif /* CONFIG_MIPS_MT_SMTC */ 832 833#define read_c0_cause() __read_32bit_c0_register($13, 0) 834#define write_c0_cause(val) __write_32bit_c0_register($13, 0, val) 835 836#define read_c0_epc() __read_ulong_c0_register($14, 0) 837#define write_c0_epc(val) __write_ulong_c0_register($14, 0, val) 838 839#define read_c0_prid() __read_32bit_c0_register($15, 0) 840 841#define read_c0_config() __read_32bit_c0_register($16, 0) 842#define read_c0_config1() __read_32bit_c0_register($16, 1) 843#define read_c0_config2() __read_32bit_c0_register($16, 2) 844#define read_c0_config3() __read_32bit_c0_register($16, 3) 845#define read_c0_config4() __read_32bit_c0_register($16, 4) 846#define read_c0_config5() __read_32bit_c0_register($16, 5) 847#define read_c0_config6() __read_32bit_c0_register($16, 6) 848#define read_c0_config7() __read_32bit_c0_register($16, 7) 849#define write_c0_config(val) __write_32bit_c0_register($16, 0, val) 850#define write_c0_config1(val) __write_32bit_c0_register($16, 1, val) 851#define write_c0_config2(val) __write_32bit_c0_register($16, 2, val) 852#define write_c0_config3(val) __write_32bit_c0_register($16, 3, val) 853#define write_c0_config4(val) __write_32bit_c0_register($16, 4, val) 854#define write_c0_config5(val) __write_32bit_c0_register($16, 5, val) 855#define write_c0_config6(val) __write_32bit_c0_register($16, 6, val) 856#define write_c0_config7(val) __write_32bit_c0_register($16, 7, val) 857 858/* 859 * The WatchLo register. There may be upto 8 of them. 860 */ 861#define read_c0_watchlo0() __read_ulong_c0_register($18, 0) 862#define read_c0_watchlo1() __read_ulong_c0_register($18, 1) 863#define read_c0_watchlo2() __read_ulong_c0_register($18, 2) 864#define read_c0_watchlo3() __read_ulong_c0_register($18, 3) 865#define read_c0_watchlo4() __read_ulong_c0_register($18, 4) 866#define read_c0_watchlo5() __read_ulong_c0_register($18, 5) 867#define read_c0_watchlo6() __read_ulong_c0_register($18, 6) 868#define read_c0_watchlo7() __read_ulong_c0_register($18, 7) 869#define write_c0_watchlo0(val) __write_ulong_c0_register($18, 0, val) 870#define write_c0_watchlo1(val) __write_ulong_c0_register($18, 1, val) 871#define write_c0_watchlo2(val) __write_ulong_c0_register($18, 2, val) 872#define write_c0_watchlo3(val) __write_ulong_c0_register($18, 3, val) 873#define write_c0_watchlo4(val) __write_ulong_c0_register($18, 4, val) 874#define write_c0_watchlo5(val) __write_ulong_c0_register($18, 5, val) 875#define write_c0_watchlo6(val) __write_ulong_c0_register($18, 6, val) 876#define write_c0_watchlo7(val) __write_ulong_c0_register($18, 7, val) 877 878/* 879 * The WatchHi register. There may be upto 8 of them. 880 */ 881#define read_c0_watchhi0() __read_32bit_c0_register($19, 0) 882#define read_c0_watchhi1() __read_32bit_c0_register($19, 1) 883#define read_c0_watchhi2() __read_32bit_c0_register($19, 2) 884#define read_c0_watchhi3() __read_32bit_c0_register($19, 3) 885#define read_c0_watchhi4() __read_32bit_c0_register($19, 4) 886#define read_c0_watchhi5() __read_32bit_c0_register($19, 5) 887#define read_c0_watchhi6() __read_32bit_c0_register($19, 6) 888#define read_c0_watchhi7() __read_32bit_c0_register($19, 7) 889 890#define write_c0_watchhi0(val) __write_32bit_c0_register($19, 0, val) 891#define write_c0_watchhi1(val) __write_32bit_c0_register($19, 1, val) 892#define write_c0_watchhi2(val) __write_32bit_c0_register($19, 2, val) 893#define write_c0_watchhi3(val) __write_32bit_c0_register($19, 3, val) 894#define write_c0_watchhi4(val) __write_32bit_c0_register($19, 4, val) 895#define write_c0_watchhi5(val) __write_32bit_c0_register($19, 5, val) 896#define write_c0_watchhi6(val) __write_32bit_c0_register($19, 6, val) 897#define write_c0_watchhi7(val) __write_32bit_c0_register($19, 7, val) 898 899#define read_c0_xcontext() __read_ulong_c0_register($20, 0) 900#define write_c0_xcontext(val) __write_ulong_c0_register($20, 0, val) 901 902#define read_c0_intcontrol() __read_32bit_c0_ctrl_register($20) 903#define write_c0_intcontrol(val) __write_32bit_c0_ctrl_register($20, val) 904 905#define read_c0_framemask() __read_32bit_c0_register($21, 0) 906#define write_c0_framemask(val) __write_32bit_c0_register($21, 0, val) 907 908/* RM9000 PerfControl performance counter control register */ 909#define read_c0_perfcontrol() __read_32bit_c0_register($22, 0) 910#define write_c0_perfcontrol(val) __write_32bit_c0_register($22, 0, val) 911 912#define read_c0_diag() __read_32bit_c0_register($22, 0) 913#define write_c0_diag(val) __write_32bit_c0_register($22, 0, val) 914 915#define read_c0_diag1() __read_32bit_c0_register($22, 1) 916#define write_c0_diag1(val) __write_32bit_c0_register($22, 1, val) 917 918#define read_c0_diag2() __read_32bit_c0_register($22, 2) 919#define write_c0_diag2(val) __write_32bit_c0_register($22, 2, val) 920 921#define read_c0_diag3() __read_32bit_c0_register($22, 3) 922#define write_c0_diag3(val) __write_32bit_c0_register($22, 3, val) 923 924#define read_c0_diag4() __read_32bit_c0_register($22, 4) 925#define write_c0_diag4(val) __write_32bit_c0_register($22, 4, val) 926 927#define read_c0_diag5() __read_32bit_c0_register($22, 5) 928#define write_c0_diag5(val) __write_32bit_c0_register($22, 5, val) 929 930#define read_c0_debug() __read_32bit_c0_register($23, 0) 931#define write_c0_debug(val) __write_32bit_c0_register($23, 0, val) 932 933#define read_c0_depc() __read_ulong_c0_register($24, 0) 934#define write_c0_depc(val) __write_ulong_c0_register($24, 0, val) 935 936/* 937 * MIPS32 / MIPS64 performance counters 938 */ 939#define read_c0_perfctrl0() __read_32bit_c0_register($25, 0) 940#define write_c0_perfctrl0(val) __write_32bit_c0_register($25, 0, val) 941#define read_c0_perfcntr0() __read_32bit_c0_register($25, 1) 942#define write_c0_perfcntr0(val) __write_32bit_c0_register($25, 1, val) 943#define read_c0_perfctrl1() __read_32bit_c0_register($25, 2) 944#define write_c0_perfctrl1(val) __write_32bit_c0_register($25, 2, val) 945#define read_c0_perfcntr1() __read_32bit_c0_register($25, 3) 946#define write_c0_perfcntr1(val) __write_32bit_c0_register($25, 3, val) 947#define read_c0_perfctrl2() __read_32bit_c0_register($25, 4) 948#define write_c0_perfctrl2(val) __write_32bit_c0_register($25, 4, val) 949#define read_c0_perfcntr2() __read_32bit_c0_register($25, 5) 950#define write_c0_perfcntr2(val) __write_32bit_c0_register($25, 5, val) 951#define read_c0_perfctrl3() __read_32bit_c0_register($25, 6) 952#define write_c0_perfctrl3(val) __write_32bit_c0_register($25, 6, val) 953#define read_c0_perfcntr3() __read_32bit_c0_register($25, 7) 954#define write_c0_perfcntr3(val) __write_32bit_c0_register($25, 7, val) 955 956/* RM9000 PerfCount performance counter register */ 957#define read_c0_perfcount() __read_64bit_c0_register($25, 0) 958#define write_c0_perfcount(val) __write_64bit_c0_register($25, 0, val) 959 960#define read_c0_ecc() __read_32bit_c0_register($26, 0) 961#define write_c0_ecc(val) __write_32bit_c0_register($26, 0, val) 962 963#define read_c0_derraddr0() __read_ulong_c0_register($26, 1) 964#define write_c0_derraddr0(val) __write_ulong_c0_register($26, 1, val) 965 966#define read_c0_cacheerr() __read_32bit_c0_register($27, 0) 967 968#define read_c0_derraddr1() __read_ulong_c0_register($27, 1) 969#define write_c0_derraddr1(val) __write_ulong_c0_register($27, 1, val) 970 971#define read_c0_taglo() __read_32bit_c0_register($28, 0) 972#define write_c0_taglo(val) __write_32bit_c0_register($28, 0, val) 973 974#define read_c0_dtaglo() __read_32bit_c0_register($28, 2) 975#define write_c0_dtaglo(val) __write_32bit_c0_register($28, 2, val) 976 977#define read_c0_taghi() __read_32bit_c0_register($29, 0) 978#define write_c0_taghi(val) __write_32bit_c0_register($29, 0, val) 979 980#define read_c0_errorepc() __read_ulong_c0_register($30, 0) 981#define write_c0_errorepc(val) __write_ulong_c0_register($30, 0, val) 982 983/* MIPSR2 */ 984#define read_c0_hwrena() __read_32bit_c0_register($7,0) 985#define write_c0_hwrena(val) __write_32bit_c0_register($7, 0, val) 986 987#define read_c0_intctl() __read_32bit_c0_register($12, 1) 988#define write_c0_intctl(val) __write_32bit_c0_register($12, 1, val) 989 990#define read_c0_srsctl() __read_32bit_c0_register($12, 2) 991#define write_c0_srsctl(val) __write_32bit_c0_register($12, 2, val) 992 993#define read_c0_srsmap() __read_32bit_c0_register($12, 3) 994#define write_c0_srsmap(val) __write_32bit_c0_register($12, 3, val) 995 996#define read_c0_ebase() __read_32bit_c0_register($15,1) 997#define write_c0_ebase(val) __write_32bit_c0_register($15, 1, val) 998 999/* 1000 * Macros to access the floating point coprocessor control registers 1001 */ 1002#define read_32bit_cp1_register(source) \ 1003({ int __res; \ 1004 __asm__ __volatile__( \ 1005 ".set\tpush\n\t" \ 1006 ".set\treorder\n\t" \ 1007 "cfc1\t%0,"STR(source)"\n\t" \ 1008 ".set\tpop" \ 1009 : "=r" (__res)); \ 1010 __res;}) 1011 1012#define rddsp(mask) \ 1013({ \ 1014 unsigned int __res; \ 1015 \ 1016 __asm__ __volatile__( \ 1017 " .set push \n" \ 1018 " .set noat \n" \ 1019 " # rddsp $1, %x1 \n" \ 1020 " .word 0x7c000cb8 | (%x1 << 16) \n" \ 1021 " move %0, $1 \n" \ 1022 " .set pop \n" \ 1023 : "=r" (__res) \ 1024 : "i" (mask)); \ 1025 __res; \ 1026}) 1027 1028#define wrdsp(val, mask) \ 1029do { \ 1030 __asm__ __volatile__( \ 1031 " .set push \n" \ 1032 " .set noat \n" \ 1033 " move $1, %0 \n" \ 1034 " # wrdsp $1, %x1 \n" \ 1035 " .word 0x7c2004f8 | (%x1 << 11) \n" \ 1036 " .set pop \n" \ 1037 : \ 1038 : "r" (val), "i" (mask)); \ 1039} while (0) 1040 1041#if 0 /* Need DSP ASE capable assembler ... */ 1042#define mflo0() ({ long mflo0; __asm__("mflo %0, $ac0" : "=r" (mflo0)); mflo0;}) 1043#define mflo1() ({ long mflo1; __asm__("mflo %0, $ac1" : "=r" (mflo1)); mflo1;}) 1044#define mflo2() ({ long mflo2; __asm__("mflo %0, $ac2" : "=r" (mflo2)); mflo2;}) 1045#define mflo3() ({ long mflo3; __asm__("mflo %0, $ac3" : "=r" (mflo3)); mflo3;}) 1046 1047#define mfhi0() ({ long mfhi0; __asm__("mfhi %0, $ac0" : "=r" (mfhi0)); mfhi0;}) 1048#define mfhi1() ({ long mfhi1; __asm__("mfhi %0, $ac1" : "=r" (mfhi1)); mfhi1;}) 1049#define mfhi2() ({ long mfhi2; __asm__("mfhi %0, $ac2" : "=r" (mfhi2)); mfhi2;}) 1050#define mfhi3() ({ long mfhi3; __asm__("mfhi %0, $ac3" : "=r" (mfhi3)); mfhi3;}) 1051 1052#define mtlo0(x) __asm__("mtlo %0, $ac0" ::"r" (x)) 1053#define mtlo1(x) __asm__("mtlo %0, $ac1" ::"r" (x)) 1054#define mtlo2(x) __asm__("mtlo %0, $ac2" ::"r" (x)) 1055#define mtlo3(x) __asm__("mtlo %0, $ac3" ::"r" (x)) 1056 1057#define mthi0(x) __asm__("mthi %0, $ac0" ::"r" (x)) 1058#define mthi1(x) __asm__("mthi %0, $ac1" ::"r" (x)) 1059#define mthi2(x) __asm__("mthi %0, $ac2" ::"r" (x)) 1060#define mthi3(x) __asm__("mthi %0, $ac3" ::"r" (x)) 1061 1062#else 1063 1064#define mfhi0() \ 1065({ \ 1066 unsigned long __treg; \ 1067 \ 1068 __asm__ __volatile__( \ 1069 " .set push \n" \ 1070 " .set noat \n" \ 1071 " # mfhi %0, $ac0 \n" \ 1072 " .word 0x00000810 \n" \ 1073 " move %0, $1 \n" \ 1074 " .set pop \n" \ 1075 : "=r" (__treg)); \ 1076 __treg; \ 1077}) 1078 1079#define mfhi1() \ 1080({ \ 1081 unsigned long __treg; \ 1082 \ 1083 __asm__ __volatile__( \ 1084 " .set push \n" \ 1085 " .set noat \n" \ 1086 " # mfhi %0, $ac1 \n" \ 1087 " .word 0x00200810 \n" \ 1088 " move %0, $1 \n" \ 1089 " .set pop \n" \ 1090 : "=r" (__treg)); \ 1091 __treg; \ 1092}) 1093 1094#define mfhi2() \ 1095({ \ 1096 unsigned long __treg; \ 1097 \ 1098 __asm__ __volatile__( \ 1099 " .set push \n" \ 1100 " .set noat \n" \ 1101 " # mfhi %0, $ac2 \n" \ 1102 " .word 0x00400810 \n" \ 1103 " move %0, $1 \n" \ 1104 " .set pop \n" \ 1105 : "=r" (__treg)); \ 1106 __treg; \ 1107}) 1108 1109#define mfhi3() \ 1110({ \ 1111 unsigned long __treg; \ 1112 \ 1113 __asm__ __volatile__( \ 1114 " .set push \n" \ 1115 " .set noat \n" \ 1116 " # mfhi %0, $ac3 \n" \ 1117 " .word 0x00600810 \n" \ 1118 " move %0, $1 \n" \ 1119 " .set pop \n" \ 1120 : "=r" (__treg)); \ 1121 __treg; \ 1122}) 1123 1124#define mflo0() \ 1125({ \ 1126 unsigned long __treg; \ 1127 \ 1128 __asm__ __volatile__( \ 1129 " .set push \n" \ 1130 " .set noat \n" \ 1131 " # mflo %0, $ac0 \n" \ 1132 " .word 0x00000812 \n" \ 1133 " move %0, $1 \n" \ 1134 " .set pop \n" \ 1135 : "=r" (__treg)); \ 1136 __treg; \ 1137}) 1138 1139#define mflo1() \ 1140({ \ 1141 unsigned long __treg; \ 1142 \ 1143 __asm__ __volatile__( \ 1144 " .set push \n" \ 1145 " .set noat \n" \ 1146 " # mflo %0, $ac1 \n" \ 1147 " .word 0x00200812 \n" \ 1148 " move %0, $1 \n" \ 1149 " .set pop \n" \ 1150 : "=r" (__treg)); \ 1151 __treg; \ 1152}) 1153 1154#define mflo2() \ 1155({ \ 1156 unsigned long __treg; \ 1157 \ 1158 __asm__ __volatile__( \ 1159 " .set push \n" \ 1160 " .set noat \n" \ 1161 " # mflo %0, $ac2 \n" \ 1162 " .word 0x00400812 \n" \ 1163 " move %0, $1 \n" \ 1164 " .set pop \n" \ 1165 : "=r" (__treg)); \ 1166 __treg; \ 1167}) 1168 1169#define mflo3() \ 1170({ \ 1171 unsigned long __treg; \ 1172 \ 1173 __asm__ __volatile__( \ 1174 " .set push \n" \ 1175 " .set noat \n" \ 1176 " # mflo %0, $ac3 \n" \ 1177 " .word 0x00600812 \n" \ 1178 " move %0, $1 \n" \ 1179 " .set pop \n" \ 1180 : "=r" (__treg)); \ 1181 __treg; \ 1182}) 1183 1184#define mthi0(x) \ 1185do { \ 1186 __asm__ __volatile__( \ 1187 " .set push \n" \ 1188 " .set noat \n" \ 1189 " move $1, %0 \n" \ 1190 " # mthi $1, $ac0 \n" \ 1191 " .word 0x00200011 \n" \ 1192 " .set pop \n" \ 1193 : \ 1194 : "r" (x)); \ 1195} while (0) 1196 1197#define mthi1(x) \ 1198do { \ 1199 __asm__ __volatile__( \ 1200 " .set push \n" \ 1201 " .set noat \n" \ 1202 " move $1, %0 \n" \ 1203 " # mthi $1, $ac1 \n" \ 1204 " .word 0x00200811 \n" \ 1205 " .set pop \n" \ 1206 : \ 1207 : "r" (x)); \ 1208} while (0) 1209 1210#define mthi2(x) \ 1211do { \ 1212 __asm__ __volatile__( \ 1213 " .set push \n" \ 1214 " .set noat \n" \ 1215 " move $1, %0 \n" \ 1216 " # mthi $1, $ac2 \n" \ 1217 " .word 0x00201011 \n" \ 1218 " .set pop \n" \ 1219 : \ 1220 : "r" (x)); \ 1221} while (0) 1222 1223#define mthi3(x) \ 1224do { \ 1225 __asm__ __volatile__( \ 1226 " .set push \n" \ 1227 " .set noat \n" \ 1228 " move $1, %0 \n" \ 1229 " # mthi $1, $ac3 \n" \ 1230 " .word 0x00201811 \n" \ 1231 " .set pop \n" \ 1232 : \ 1233 : "r" (x)); \ 1234} while (0) 1235 1236#define mtlo0(x) \ 1237do { \ 1238 __asm__ __volatile__( \ 1239 " .set push \n" \ 1240 " .set noat \n" \ 1241 " move $1, %0 \n" \ 1242 " # mtlo $1, $ac0 \n" \ 1243 " .word 0x00200013 \n" \ 1244 " .set pop \n" \ 1245 : \ 1246 : "r" (x)); \ 1247} while (0) 1248 1249#define mtlo1(x) \ 1250do { \ 1251 __asm__ __volatile__( \ 1252 " .set push \n" \ 1253 " .set noat \n" \ 1254 " move $1, %0 \n" \ 1255 " # mtlo $1, $ac1 \n" \ 1256 " .word 0x00200813 \n" \ 1257 " .set pop \n" \ 1258 : \ 1259 : "r" (x)); \ 1260} while (0) 1261 1262#define mtlo2(x) \ 1263do { \ 1264 __asm__ __volatile__( \ 1265 " .set push \n" \ 1266 " .set noat \n" \ 1267 " move $1, %0 \n" \ 1268 " # mtlo $1, $ac2 \n" \ 1269 " .word 0x00201013 \n" \ 1270 " .set pop \n" \ 1271 : \ 1272 : "r" (x)); \ 1273} while (0) 1274 1275#define mtlo3(x) \ 1276do { \ 1277 __asm__ __volatile__( \ 1278 " .set push \n" \ 1279 " .set noat \n" \ 1280 " move $1, %0 \n" \ 1281 " # mtlo $1, $ac3 \n" \ 1282 " .word 0x00201813 \n" \ 1283 " .set pop \n" \ 1284 : \ 1285 : "r" (x)); \ 1286} while (0) 1287 1288#endif 1289 1290/* 1291 * TLB operations. 1292 * 1293 * It is responsibility of the caller to take care of any TLB hazards. 1294 */ 1295static inline void tlb_probe(void) 1296{ 1297 __asm__ __volatile__( 1298 ".set noreorder\n\t" 1299 "tlbp\n\t" 1300 ".set reorder"); 1301} 1302 1303static inline void tlb_read(void) 1304{ 1305#if MIPS34K_MISSED_ITLB_WAR 1306 int res = 0; 1307 1308 __asm__ __volatile__( 1309 " .set push \n" 1310 " .set noreorder \n" 1311 " .set noat \n" 1312 " .set mips32r2 \n" 1313 " .word 0x41610001 # dvpe $1 \n" 1314 " move %0, $1 \n" 1315 " ehb \n" 1316 " .set pop \n" 1317 : "=r" (res)); 1318 1319 instruction_hazard(); 1320#endif 1321 1322 __asm__ __volatile__( 1323 ".set noreorder\n\t" 1324 "tlbr\n\t" 1325 ".set reorder"); 1326 1327#if MIPS34K_MISSED_ITLB_WAR 1328 if ((res & _ULCAST_(1))) 1329 __asm__ __volatile__( 1330 " .set push \n" 1331 " .set noreorder \n" 1332 " .set noat \n" 1333 " .set mips32r2 \n" 1334 " .word 0x41600021 # evpe \n" 1335 " ehb \n" 1336 " .set pop \n"); 1337#endif 1338} 1339 1340static inline void tlb_write_indexed(void) 1341{ 1342 __asm__ __volatile__( 1343 ".set noreorder\n\t" 1344 "tlbwi\n\t" 1345 ".set reorder"); 1346} 1347 1348static inline void tlb_write_random(void) 1349{ 1350 __asm__ __volatile__( 1351 ".set noreorder\n\t" 1352 "tlbwr\n\t" 1353 ".set reorder"); 1354} 1355 1356/* 1357 * Manipulate bits in a c0 register. 1358 */ 1359#ifndef CONFIG_MIPS_MT_SMTC 1360/* 1361 * SMTC Linux requires shutting-down microthread scheduling 1362 * during CP0 register read-modify-write sequences. 1363 */ 1364#define __BUILD_SET_C0(name) \ 1365static inline unsigned int \ 1366set_c0_##name(unsigned int set) \ 1367{ \ 1368 unsigned int res; \ 1369 \ 1370 res = read_c0_##name(); \ 1371 res |= set; \ 1372 write_c0_##name(res); \ 1373 \ 1374 return res; \ 1375} \ 1376 \ 1377static inline unsigned int \ 1378clear_c0_##name(unsigned int clear) \ 1379{ \ 1380 unsigned int res; \ 1381 \ 1382 res = read_c0_##name(); \ 1383 res &= ~clear; \ 1384 write_c0_##name(res); \ 1385 \ 1386 return res; \ 1387} \ 1388 \ 1389static inline unsigned int \ 1390change_c0_##name(unsigned int change, unsigned int new) \ 1391{ \ 1392 unsigned int res; \ 1393 \ 1394 res = read_c0_##name(); \ 1395 res &= ~change; \ 1396 res |= (new & change); \ 1397 write_c0_##name(res); \ 1398 \ 1399 return res; \ 1400} 1401 1402#else /* SMTC versions that manage MT scheduling */ 1403 1404#include <linux/irqflags.h> 1405 1406/* 1407 * This is a duplicate of dmt() in mipsmtregs.h to avoid problems with 1408 * header file recursion. 1409 */ 1410static inline unsigned int __dmt(void) 1411{ 1412 int res; 1413 1414 __asm__ __volatile__( 1415 " .set push \n" 1416 " .set mips32r2 \n" 1417 " .set noat \n" 1418 " .word 0x41610BC1 # dmt $1 \n" 1419 " ehb \n" 1420 " move %0, $1 \n" 1421 " .set pop \n" 1422 : "=r" (res)); 1423 1424 instruction_hazard(); 1425 1426 return res; 1427} 1428 1429#define __VPECONTROL_TE_SHIFT 15 1430#define __VPECONTROL_TE (1UL << __VPECONTROL_TE_SHIFT) 1431 1432#define __EMT_ENABLE __VPECONTROL_TE 1433 1434static inline void __emt(unsigned int previous) 1435{ 1436 if ((previous & __EMT_ENABLE)) 1437 __asm__ __volatile__( 1438 " .set mips32r2 \n" 1439 " .word 0x41600be1 # emt \n" 1440 " ehb \n" 1441 " .set mips0 \n"); 1442} 1443 1444static inline void __ehb(void) 1445{ 1446 __asm__ __volatile__( 1447 " .set mips32r2 \n" 1448 " ehb \n" " .set mips0 \n"); 1449} 1450 1451/* 1452 * Note that local_irq_save/restore affect TC-specific IXMT state, 1453 * not Status.IE as in non-SMTC kernel. 1454 */ 1455 1456#define __BUILD_SET_C0(name) \ 1457static inline unsigned int \ 1458set_c0_##name(unsigned int set) \ 1459{ \ 1460 unsigned int res; \ 1461 unsigned int omt; \ 1462 unsigned int flags; \ 1463 \ 1464 local_irq_save(flags); \ 1465 omt = __dmt(); \ 1466 res = read_c0_##name(); \ 1467 res |= set; \ 1468 write_c0_##name(res); \ 1469 __emt(omt); \ 1470 local_irq_restore(flags); \ 1471 \ 1472 return res; \ 1473} \ 1474 \ 1475static inline unsigned int \ 1476clear_c0_##name(unsigned int clear) \ 1477{ \ 1478 unsigned int res; \ 1479 unsigned int omt; \ 1480 unsigned int flags; \ 1481 \ 1482 local_irq_save(flags); \ 1483 omt = __dmt(); \ 1484 res = read_c0_##name(); \ 1485 res &= ~clear; \ 1486 write_c0_##name(res); \ 1487 __emt(omt); \ 1488 local_irq_restore(flags); \ 1489 \ 1490 return res; \ 1491} \ 1492 \ 1493static inline unsigned int \ 1494change_c0_##name(unsigned int change, unsigned int new) \ 1495{ \ 1496 unsigned int res; \ 1497 unsigned int omt; \ 1498 unsigned int flags; \ 1499 \ 1500 local_irq_save(flags); \ 1501 \ 1502 omt = __dmt(); \ 1503 res = read_c0_##name(); \ 1504 res &= ~change; \ 1505 res |= (new & change); \ 1506 write_c0_##name(res); \ 1507 __emt(omt); \ 1508 local_irq_restore(flags); \ 1509 \ 1510 return res; \ 1511} 1512#endif 1513 1514__BUILD_SET_C0(status) 1515__BUILD_SET_C0(cause) 1516__BUILD_SET_C0(config) 1517__BUILD_SET_C0(intcontrol) 1518__BUILD_SET_C0(intctl) 1519__BUILD_SET_C0(srsmap) 1520 1521#endif /* !__ASSEMBLY__ */ 1522 1523#endif /* _ASM_MIPSREGS_H */